OpenSearch/docs/reference/how-to/search-speed.asciidoc

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[[tune-for-search-speed]]
== Tune for search speed
[float]
=== Give memory to the filesystem cache
Elasticsearch heavily relies on the filesystem cache in order to make search
fast. In general, you should make sure that at least half the available memory
goes to the filesystem cache so that elasticsearch can keep hot regions of the
index in physical memory.
[float]
=== Use faster hardware
If your search is I/O bound, you should investigate giving more memory to the
filesystem cache (see above) or buying faster drives. In particular SSD drives
are known to perform better than spinning disks. Always use local storage,
remote filesystems such as `NFS` or `SMB` should be avoided. Also beware of
virtualized storage such as Amazon's `Elastic Block Storage`. Virtualized
storage works very well with Elasticsearch, and it is appealing since it is so
fast and simple to set up, but it is also unfortunately inherently slower on an
ongoing basis when compared to dedicated local storage. If you put an index on
`EBS`, be sure to use provisioned IOPS otherwise operations could be quickly
throttled.
If your search is CPU-bound, you should investigate buying faster CPUs.
[float]
=== Document modeling
Documents should be modeled so that search-time operations are as cheap as possible.
In particular, joins should be avoided. <<nested,`nested`>> can make queries
several times slower and <<mapping-parent-field,parent-child>> relations can make
queries hundreds of times slower. So if the same questions can be answered without
joins by denormalizing documents, significant speedups can be expected.
[float]
=== Pre-index data
You should leverage patterns in your queries to optimize the way data is indexed.
For instance, if all your documents have a `price` field and most queries run
<<search-aggregations-bucket-range-aggregation,`range`>> aggregations on a fixed
list of ranges, you could make this aggregation faster by pre-indexing the ranges
into the index and using a <<search-aggregations-bucket-terms-aggregation,`terms`>>
aggregations.
For instance, if documents look like:
[source,js]
--------------------------------------------------
PUT index/type/1
{
"designation": "spoon",
"price": 13
}
--------------------------------------------------
// CONSOLE
and search requests look like:
[source,js]
--------------------------------------------------
GET index/_search
{
"aggs": {
"price_ranges": {
"range": {
"field": "price",
"ranges": [
{ "to": 10 },
{ "from": 10, "to": 100 },
{ "from": 100 }
]
}
}
}
}
--------------------------------------------------
// CONSOLE
// TEST[continued]
Then documents could be enriched by a `price_range` field at index time, which
should be mapped as a <<keyword,`keyword`>>:
[source,js]
--------------------------------------------------
PUT index
{
"mappings": {
"type": {
"properties": {
"price_range": {
"type": "keyword"
}
}
}
}
}
PUT index/type/1
{
"designation": "spoon",
"price": 13,
"price_range": "10-100"
}
--------------------------------------------------
// CONSOLE
And then search requests could aggregate this new field rather than running a
`range` aggregation on the `price` field.
[source,js]
--------------------------------------------------
GET index/_search
{
"aggs": {
"price_ranges": {
"terms": {
"field": "price_range"
}
}
}
}
--------------------------------------------------
// CONSOLE
// TEST[continued]
[float]
=== Mappings
The fact that some data is numeric does not mean it should always be mapped as a
<<number,numeric field>>. Typically, fields storing identifiers such as an `ISBN`
or any number identifying a record from another database, might benefit from
being mapped as <<keyword,`keyword`>> rather than `integer` or `long`.
[float]
=== Avoid scripts
In general, scripts should be avoided. If they are absolutely needed, you
should prefer the `painless` and `expressions` engines.
[float]
=== Search rounded dates
Queries on date fields that use `now` are typically not cacheable since the
range that is being matched changes all the time. However switching to a
rounded date is often acceptable in terms of user experience, and has the
benefit of making better use of the query cache.
For instance the below query:
[source,js]
--------------------------------------------------
PUT index/type/1
{
"my_date": "2016-05-11T16:30:55.328Z"
}
GET index/_search
{
"query": {
"constant_score": {
"filter": {
"range": {
"my_date": {
"gte": "now-1h",
"lte": "now"
}
}
}
}
}
}
--------------------------------------------------
// CONSOLE
could be replaced with the following query:
[source,js]
--------------------------------------------------
GET index/_search
{
"query": {
"constant_score": {
"filter": {
"range": {
"my_date": {
"gte": "now-1h/m",
"lte": "now/m"
}
}
}
}
}
}
--------------------------------------------------
// CONSOLE
// TEST[continued]
In that case we rounded to the minute, so if the current time is `16:31:29`,
the range query will match everything whose value of the `my_date` field is
between `15:31:00` and `16:31:59`. And if several users run a query that
contains this range in the same minute, the query cache could help speed things
up a bit. The longer the interval that is used for rounding, the more the query
cache can help, but beware that too aggressive rounding might also hurt user
experience.
NOTE: It might be tempting to split ranges into a large cacheable part and
smaller not cacheable parts in order to be able to leverage the query cache,
as shown below:
[source,js]
--------------------------------------------------
GET index/_search
{
"query": {
"constant_score": {
"filter": {
"bool": {
"should": [
{
"range": {
"my_date": {
"gte": "now-1h",
"lte": "now-1h/m"
}
}
},
{
"range": {
"my_date": {
"gt": "now-1h/m",
"lt": "now/m"
}
}
},
{
"range": {
"my_date": {
"gte": "now/m",
"lte": "now"
}
}
}
]
}
}
}
}
}
--------------------------------------------------
// CONSOLE
// TEST[continued]
However such practice might make the query run slower in some cases since the
overhead introduced by the `bool` query may defeat the savings from better
leveraging the query cache.
[float]
=== Force-merge read-only indices
Indices that are read-only would benefit from being
<<indices-forcemerge,merged down to a single segment>>. This is typically the
case with time-based indices: only the index for the current time frame is
getting new documents while older indices are read-only.
IMPORTANT: Don't force-merge indices that are still being written to -- leave
merging to the background merge process.
[float]
=== Warm up global ordinals
Global ordinals are a data-structure that is used in order to run
<<search-aggregations-bucket-terms-aggregation,`terms`>> aggregations on
<<keyword,`keyword`>> fields. They are loaded lazily in memory because
elasticsearch does not know which fields will be used in `terms` aggregations
and which fields won't. You can tell elasticsearch to load global ordinals
eagerly at refresh-time by configuring mappings as described below:
[source,js]
--------------------------------------------------
PUT index
{
"mappings": {
"type": {
"properties": {
"foo": {
"type": "keyword",
"eager_global_ordinals": true
}
}
}
}
}
--------------------------------------------------
// CONSOLE
[float]
=== Warm up the filesystem cache
If the machine running elasticsearch is restarted, the filesystem cache will be
empty, so it will take some time before the operating system loads hot regions
of the index into memory so that search operations are fast. You can explicitly
tell the operating system which files should be loaded into memory eagerly
depending on the file extension using the <<file-system,`index.store.preload`>>
setting.
WARNING: Loading data into the filesystem cache eagerly on too many indices or
2016-06-27 08:49:37 -04:00
too many files will make search _slower_ if the filesystem cache is not large
enough to hold all the data. Use with caution.
[float]
=== Map identifiers as `keyword`
When you have numeric identifiers in your documents, it is tempting to map them
as numbers, which is consistent with their json type. However, the way that
Elasticsearch indexes numbers optimizes for `range` queries while `keyword`
fields are better at `term` queries. Since identifiers are never used in `range`
queries, they should be mapped as a `keyword`.
[float]
=== Use index sorting to speed up conjunctions
<<index-modules-index-sorting,Index sorting>> can be useful in order to make
conjunctions faster at the cost of slightly slower indexing. Read more about it
in the <<index-modules-index-sorting-conjunctions,index sorting documentation>>.